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Popov, V.A., Tsyganko, M.V. (2023) Benard cells – a possible mechanism of the formation of subaquatic and subfluidic stalactites. МИНЕРАЛОГИЯ (MINERALOGY) [Mineralogy], 9 (3) 70-75 doi:10.35597/2313-545x-2023-9-3-5

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Reference TypeJournal (article/letter/editorial)
TitleBenard cells – a possible mechanism of the formation of subaquatic and subfluidic stalactites
JournalМИНЕРАЛОГИЯ (MINERALOGY)
[Mineralogy]
AuthorsPopov, V.A.Author
Tsyganko, M.V.Author
Year2023 (September 29)Volume9
Page(s)70-75Issue3
PublisherSouth Urals Federal Research Center for Mineralogy and Geoecology of the Urals Branch of the RAS
URL
Download URLhttps://journal.mineralogy.ru/wp-content/uploads/2023/10/2023_9_3_5.pdf+
DOIdoi:10.35597/2313-545x-2023-9-3-5Search in ResearchGate
LanguagesRussian
Classification
Not set		LoC
Not set
Mindat Ref. ID17078427Long-form Identifiermindat:1:5:17078427:8
GUIDa60860fc-dded-4607-82db-729ae8c31503
Full ReferencePopov, V.A., Tsyganko, M.V. (2023) Benard cells – a possible mechanism of the formation of subaquatic and subfluidic stalactites. МИНЕРАЛОГИЯ (MINERALOGY) [Mineralogy], 9 (3) 70-75 doi:10.35597/2313-545x-2023-9-3-5
Plain TextPopov, V.A., Tsyganko, M.V. (2023) Benard cells – a possible mechanism of the formation of subaquatic and subfluidic stalactites. МИНЕРАЛОГИЯ (MINERALOGY) [Mineralogy], 9 (3) 70-75 doi:10.35597/2313-545x-2023-9-3-5
In(2023) МИНЕРАЛОГИЯ [Mineralogy] Vol. 9 (3)
Abstract/NotesThe mechanism of formation of stalactites in gravity feld of the Earth during their formation in air and subaquatic and subfuidic (magmatic) systems is considered. If the systems represent the cavities in solid bodies with ambient capillary-porous space flled with liquids, then it locally yields the convective subsystems: the Benard cells fxed by the formation of stalactites. The phenomenon is illustrated on examples of malachite, goethite, chalcedony, quartz-feldspar and magnetite stalactites.

Mineral Pages

MineralCitation Details
Chalcedony
Goethite
Magnetite
Malachite

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Kasatkin, A.V., Tsyganko, M.V., Nestola, F. (2023) Tellurium mineralization of the Priozernoe gold-quartz deposit (Northern Urals, Russia) МИНЕРАЛОГИЯ [Mineralogy], 9. 5-22 doi:10.35597/2313-545x-2023-9-1-1
Shablovsky, Ya.О. (2019) Rarе Fedorov groups in structural mineralogy. МИНЕРАЛОГИЯ (MINERALOGY), 5. 3-9 doi:10.35597/2313-545x-2019-5-2-3-9
Popov, V.A. (2019) Apatite of Alkaline Rocks of the Vishnevogorsky Complex, South Urals. МИНЕРАЛОГИЯ (MINERALOGY), 5. 11-15 doi:10.35597//2313-545x-2019-5-3-11-15
Popov, V.A. (2019) Apatite of alkaline rocks of the Vishnevogorsky complex, South Urals. МИНЕРАЛОГИЯ (MINERALOGY), 5. 11-15 doi:10.35597/2313-545x-2019-5-3-11-15
Popova, V.I., Popov, V.A., Kasatkin, A.V., Kuznetsov, A.M. (2019) Aeschynite Group Minerals from Vishnevye Mountains (South Urals). МИНЕРАЛОГИЯ (MINERALOGY), 5. 16-25 doi:10.35597/2313-545x-2019-5-3-16-25
Popov, V.A., Vasilyev, V.M., Blinov, I.A., Popova, V.I. (2019) Ontogenesis of Corundum Deposits of the Ray-Iz Massif, the Polar Urals. МИНЕРАЛОГИЯ (MINERALOGY), 5. 47-55 doi:10.35597/2313-545x-2019-5-3-47-55
Popova, V.I., Popov, V.A., Kotlyarov, V.A. (2019) Minerals assotiations and compositional heterogeneity of zircon from miaskite-carbonatite complex of the Vishnevye mountains, South Urals. МИНЕРАЛОГИЯ (MINERALOGY), 5. doi:10.35597/2313-545x-2019-5-2-23-36
Shablovsky, Ya.О. (2019) Special Spatial Symmetry of Mineral Structures. МИНЕРАЛОГИЯ (MINERALOGY), 5. 3-10 doi:10.35597/2313-545x-2019-5-3-3-10
(n.d.) МИНЕРАЛОГИЯ (MINERALOGY), 5. South Urals Federal Research Center for Mineralogy and Geoecology of the Urals Branch of the RAS. doi:10.35597/2313-545x-2019-5
(2019) МИНЕРАЛОГИЯ (MINERALOGY), 5. South Urals Federal Research Center for Mineralogy and Geoecology of the Urals Branch of the RAS. doi:10.35597/2313-545x-2019-5-2
Kasatkin, A., Stepanov, S., Tsyganko, M.V., Škoda, R., Nestola, F., Plasil, J., Makovicky, E., Agakhanov, A.A., Palamarchuk, R. (2021). Mineralogy of the Vorontsovskoe gold deposit (Northern Urals). Part 3: sulfosalts. Mineralogiya [Mineralogy], 7, 5-49. 10.35597/2313-545X-2021-7-2-1.
 
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